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Az Intel® Xeon® processzor 5500 sorozat

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1 Az Intel® Xeon® processzor 5500 sorozat
Gacsal József Üzletfejlesztési igazgató Intel Hungary

2 Napirend Az új Intel® Xeon® Processzor 5500 sorozat Architektúra
Teljesítmény Energiahatékonyság Virtualizáció Előnyök és megtérülés

3 Architektúra

4 Intel® Xeon® processzor 5500 sorozat (Nehalem-EP)
Egy nagy lépés: Új processzor architektúra Új platform architektúra Új memória alrendszer Új I/O alrendszer Új lehetőségek SSD-vel És még nagyobb lépések: Key Message: Innovation continues, and our next step will be a new platform complete with several new innovations, which extends the leadership IT value prop we have delivered the past few years. Main features: Processor: 4-wide arch (just like Intel Core uarch), 33% more efficient than AMD Opteron (more instruction per clock), more parallelism (33% more micro-ops over 45nm Penryn), enhanced algorithms and branch prediction capabilities Hyper-threading – good for highly threaded apps such as databases, multi-media, search engines Turbo Boost – raises core clock speed when needed above rated speed (performance on demand) Integrated Memory Controller: 3 ch DDR3 memory per socket, up to 144GB (8 GB DIMMs) and 32 GB/s High Bandwidth QuickPath Interconnect: Up to 25.6GB/s per link Performance: Up to 3.5x the bandwidth for technical computing† Up to 2.25x the performance for enterprise computing† 2x software threads and performance boost on demand Energy Efficiency: Highest system level performance/watt† Lower system idle power reduces IT costs Dynamically turns cores on/off to meet performance needs Virtualization: Expand existing pools with Intel VT FlexMigration Unique capabilities for live VM migration over network Highest 2S virtualization scores mean more VMs per server† Teljesítmény Energia hatékonyság Virtualizáció

5 Az intelligens teljesítmény Next Generation Intel® Microarchitecture
Sávszélesség igényes Intel® QuickPath Technology Integrált memória vezérlő Többszálú alkalmazások 45nm quad-core Intel® Xeon® processzorok Intel® Hyper-threading technológia Intel® 5520 Chipset Intel® Data Center Manager Intel® Node Manager Technology PCI Express* 2.0 Teljesítmény igény szerint Intel® Turbo Boost technológia Intel® Intelligent Power technológia Intel® X25-E SSDs ICH 9/10 Intel® GbE Controller A szoftver környezethez igazodó teljesítmény All future products, dates, and figures are preliminary and are subject to change without any notice.

6 Teljesítmény

7 Intel® Xeon® Processor 2S Performance
Relative Performance Higher is better Performance gains represent a blend (GEO mean) of five common 2-socket workload types across a range of typical usages (see details) Intel® Xeon® 5500 Intel® Xeon® 5400 Relative Performance Intel® Xeon® 5300 Intel® Xeon® 5100 Single Core Dual Core Multi-core Slide objective: Because of constant advancements in server technology over time as we (Intel) pursue the promise and reality of Moore’s law. The key point to make is that older 2S servers installed in your infrastructure are consuming too much power, space and requires too much maintenance / patching. Gains across a range of industry standard workloads Up to 3.5x the bandwidth for technical computing Up to 2.25x performance for enterprise computing Compelling Performance Gains; Enables Unprecedented Opportunities For Business Source: Published/submitted/measured results March 30, Each bar represents the geo mean of published results on five industry standard benchmarks – SPECint_rate, SPECfp_rate, SPECjbb2005, TPC-C and SAP-SD. Performance tests and ratings are measured using specific computer systems and/or components and reflect the approximate performance of Intel products as measured by those tests. Any difference in system hardware or software design or configuration may affect actual performance. Buyers should consult other sources of information to evaluate the performance of systems or components they are considering purchasing. For more information on performance tests and on the performance of Intel products, visit Copyright © 2009, Intel Corporation. * Other names and brands may be claimed as the property of others.

8 Teljesítmény Intel® Xeon® processzor 5500 sorozat (Nehalem-EP)
Technikai High Performance Computing Általános vállalati General Purpose Memória igényes 3.5X 2.25X Időjárás Energia Virtualizáció Véges elem analízis Lebegő pontos Adatbázis Folyadék SAP Egész Java Intel Xeon X5570 (2.93 GHz) vs. Intel Xeon X5482 (3.20GHz) Intel Xeon X5570 (2.93 GHz) vs. Intel Xeon X5460 (3.16GHz) Nagy teljesítmény minden területen Source: Published/submitted/approved results March 30, See backup for additional details

9 Energiahatékonyság

10 Felhasznált energia és teljesítmény
Energiahatékonyság Energia- hatékonyság 2.25x teljesítmény, hasonló energiafelvétellel† Alacsonyabb készenléti energiafelvétel Magok dinamikus ki/be kapcsolása a teljesítményigénynek megfelelően Készenléti és csúcs† Felhasznált energia és teljesítmény 12% Xeon 5300 Xeon 5500 Rendszer energia 50% Ideális görbe Idle 50% 100% Rendszer kihasználás † Source: Intel internal measurements using SPECjbb2005* as of Aug System configurations: 2S, 80W processors, 8 DIMMs, 1 HDD, 1 PSU. Except Irwindale=110W processors; Power measurements using SPECjbb Tylersburg-EP from Intel internal measurements as of Sept 2008 with 2.93GHz 95W processors. This information is preliminary and subject to change before launch. For more information, see legal information slide at end of this presentation. 10

11 Virtualizáció

12 Intel® Xeon® 5500 sorozat: Az első teljesen virtualizált hardver platform
Intel® VT-x Intel® VT For Directed I/O Intel® VT For Connectivity processzor lapkakészlet hálózat Intel platform virtualizációs technológiák There is no single silver bullet that can reduce the virtualization overheads, so enhancements are required across the platform to virtualization overheads. Having a holistic and a platform centric approach for hardware assists tuned for virtualization is fundamental to delivering the performance, scalability and flexibility required for today’s ever-changing datacenter usage models. Intel VT hardware assists delivers platform wide portfolio of capabilities to enhance virtualization, and the Intel Xeon® 5500 platform is the first volume server platform with end-to-end HW-assisted virtualization – CPU, chipset, and LAN controllers. Equally important is that EVERYTHING that Intel provides as a hardware assist to virtualization requires VMM support. To this end, we collaborate closely with VMM Software vendors to deliver Virtualization Solutions that deliver our innovations. We are not only delivering the HW, but we’re also making it real. Extended Page Tables Intel® VT-d Intel® VT-c Intel® VT Flex Migration Intel® VT Flex Priority Virtual Machine Device Queues (VMDq) 12

13 Előnyök és megtérülés

14 Energiahatékony frissítés (Ugyanakkora teljesítmény)
2005 2009 184 egymagú 21 Intel® Xeon® 5500 alapú 8 hónap ROI 9X kevesebb kiszolgáló 90% kevesebb energia éves szinten Moving from 2005 to 2009 based servers IT can enjoy … Up to 9x performance per server (SPECjbb2005* 51,000 bops to 447,000) Combined with nearly 20% lower power per server (18% 382W to 315W) Means that server energy efficiency (perf/watt) is about 10x Meaning that for the same input power / cooling requirements (1MW example shown), IT can boost performance capability into the same data centers replacing 1:1 … that will boost performance by nearly 9x and because each server draws less power, allow IT to reduce annual energy costs. Stay competitive in the HPC space … this is capability you can’t afford not to have. NOTE: IF IT wants to fully utilize their power/cooling capability, and has the space to add servers to their existing data center they can allow their footprint to grow by 18% … adding 17 new racks and see performance of the data center (as a whole) increase to ~10x existing capability Source: Intel estimates as of Nov Performance comparison using SPECjbb2005 bops (business operations per second). Results have been estimated based on internal Intel analysis and are provided for informational purposes only.  Any difference in system hardware or software design or configuration may affect actual performance. For detailed calculations, configurations and assumptions refer to the legal information slide in backup.

15 Frissítési előnyök 2005 18% becsült, éves energiaköltség megtakarítás
184 Intel® Xeon® egymagú kiszolgáló 2005 Teljesítmény frissítés Hatékony Max. 9x teljestmény 184 Intel® Xeon® 5500 alapú kiszolgáló 18% becsült, éves energiaköltség megtakarítás 21 Intel® Xeon® 5500 alapú kiszolgáló Max. 8 hónapos megtérülés 92% becsült, éves energiaköltség megtakarítás – VAGY – Let’s look at a common infrastructure of servers bought in 2005, where you might have 184 Intel Xeon single core servers that are operating workloads. We can see two paths that customers are on. One is that they may need to deploy more workloads and their current infrastructure simply doesn’t have the capacity. In this case, with the Xeon 5500 you could replace those 184 single core servers with new Xeon 5500 based servers and get up to 9 times the performance and still save nearly 18% of your energy cost. The other thing that customers can do if they don’t need to expand their workload, but rather focus on cost, is to replace those 184 single core servers with 21 Intel Xeon 5500 based servers. Their workload capacity stays the same, but the cost savings by deploying so fewer servers that consume much less power with fewer OS licensing costs, can generate a payback in as low as 8 months and create a 92% reduction in annual energy costs. In most cases we will see customers do a combination of both of these. They will replace the old servers to take advantage of the new energy efficiency but also build in headroom for new application deployment. In either case we know that new application deployment delivers a return and we know that consolidating older servers on to newer ones can get a return in as little as 8 months. Notes: Measures SPECjbb performance Includes both energy savings (power and cooling) and OS licensing costs per server See backup for more details of configurations Source: Intel estimates as of Nov Performance comparison using SPECjbb2005 bops (business operations per second). Results have been estimated based on internal Intel analysis and are provided for informational purposes only.  Any difference in system hardware or software design or configuration may affect actual performance. For detailed calculations, configurations and assumptions refer to the legal information slide in backup. 15

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